Methanol: Science and Engineering provides a comprehensive review of the chemistry, properties, and current and potential uses and applications of methanol. Divided into four parts, the book begins with a detailed account of current production methods and their economics. The second part deals with the applications of methanol, providing useful insights into future applications. Modeling of the various reactor systems is covered in the next section, with final discussions in the book focusing on the economic and environmental impact of this chemical. Users will find this to be a must-have…mehr
Methanol: Science and Engineering provides a comprehensive review of the chemistry, properties, and current and potential uses and applications of methanol. Divided into four parts, the book begins with a detailed account of current production methods and their economics. The second part deals with the applications of methanol, providing useful insights into future applications. Modeling of the various reactor systems is covered in the next section, with final discussions in the book focusing on the economic and environmental impact of this chemical. Users will find this to be a must-have resource for all researchers and engineers studying alternative energy sources.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
PART 1: SCIENCE AND PRODUCTION 1. Methanol Production and Applications: An Overview 2. State of the Art of Conventional Reactors for Methanol Production 3. Fossil or Renewable Sources for Methanol Production? 4. Waste as a Source of Carbon for Methanol Production 5. Direct Synthesis of Methanol and Dimethyl Ether From a CO2-Rich Feedstock: Thermodynamic Analysis and Selective Membrane Application 6. Direct Methane to Methanol: Historical and Kinetics Aspects 7. Direct Methane to Methanol: Reaction Products and Effect of Gas Composition 8. Direct Methane to Methanol: Promising Technologies Based on the DMTM Process 9. Reforming and Partial Oxidation Reactions of Methanol for Hydrogen Production PART 2: APPLICATION AND INNOVATION 10. Methanol to Dimethyl Ether 11. Methanol As An Internal Combustion on Engine Fuel 12. From Methanol to Electricity and Hydrogen Through Bioelectrochemical Systems 13. Methanol Separation From Liquid Mixtures Via Pervaporation Using Membranes 14. Direct Methanol Fuel Cell 15. Coproduction of Electrical Energy and Methanol in IGCC Plants 16. Which Future Route in the Methanol Synthesis? Photocatalytic Reduction of CO2, the New Challenge in the Solar Energy Exploitation PART 3: MODELING AND TECHNOLOGY 17. Modeling in Methanol Synthesis 18. Inorganic Membrane Reactors for Methanol Synthesis 19. Highly Conductive Structured Catalysts for the Intensification of Methanol Synthesis in Multitubular Reactors 20. Methanol Production in Thermally Coupled, Fluidized-Bed, Bubble-Column and Membrane Reactors 21. Modeling of the Di Methyl Ether Production Reactors PART 4: ENVIRONMENT AND ECONOMY 22. Methanol Economy: Environment, Demand, and Marketing With a Focus on the Waste-to-Methanol Process 23. Economic Assessment of Methanol Production 24. Cost Estimation of an Integrated System for Co-production of Electricity and Methanol 25. Methanol Economy Versus Hydrogen Economy
PART 1: SCIENCE AND PRODUCTION 1. Methanol Production and Applications: An Overview 2. State of the Art of Conventional Reactors for Methanol Production 3. Fossil or Renewable Sources for Methanol Production? 4. Waste as a Source of Carbon for Methanol Production 5. Direct Synthesis of Methanol and Dimethyl Ether From a CO2-Rich Feedstock: Thermodynamic Analysis and Selective Membrane Application 6. Direct Methane to Methanol: Historical and Kinetics Aspects 7. Direct Methane to Methanol: Reaction Products and Effect of Gas Composition 8. Direct Methane to Methanol: Promising Technologies Based on the DMTM Process 9. Reforming and Partial Oxidation Reactions of Methanol for Hydrogen Production PART 2: APPLICATION AND INNOVATION 10. Methanol to Dimethyl Ether 11. Methanol As An Internal Combustion on Engine Fuel 12. From Methanol to Electricity and Hydrogen Through Bioelectrochemical Systems 13. Methanol Separation From Liquid Mixtures Via Pervaporation Using Membranes 14. Direct Methanol Fuel Cell 15. Coproduction of Electrical Energy and Methanol in IGCC Plants 16. Which Future Route in the Methanol Synthesis? Photocatalytic Reduction of CO2, the New Challenge in the Solar Energy Exploitation PART 3: MODELING AND TECHNOLOGY 17. Modeling in Methanol Synthesis 18. Inorganic Membrane Reactors for Methanol Synthesis 19. Highly Conductive Structured Catalysts for the Intensification of Methanol Synthesis in Multitubular Reactors 20. Methanol Production in Thermally Coupled, Fluidized-Bed, Bubble-Column and Membrane Reactors 21. Modeling of the Di Methyl Ether Production Reactors PART 4: ENVIRONMENT AND ECONOMY 22. Methanol Economy: Environment, Demand, and Marketing With a Focus on the Waste-to-Methanol Process 23. Economic Assessment of Methanol Production 24. Cost Estimation of an Integrated System for Co-production of Electricity and Methanol 25. Methanol Economy Versus Hydrogen Economy
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